A delivery system for endoluminal delivery of an expandable device comprising a catheter having a proximal end and an opposite distal end configured to support an expandable device, a primary sheath having a delivery position in which the primary sheath constrains the expandable device toward a collapsed configuration suitable for endoluminal delivery, and a handle having an actuator for axially displacing the primary sheath from the delivery position, wherein the handle includes a knob for operating one or more functions of the handle which is initially hidden to prevent use by a user and then revealed as a result of displacement of the primary sheath from delivery position so as to allow subsequent actuation of the knob by the user.
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1. A delivery system for endoluminal delivery of an expandable device, said delivery system comprising
a catheter having a proximal end and an opposite distal end, the distal end configured to support the expandable device;
a primary sheath having a delivery position in which the primary sheath constrains the expandable device toward a collapsed configuration suitable for endoluminal delivery;
a handle having a first actuator that is rotatable and non-translatable wherein rotation of the first actuator causes axial displacement of the primary sheath along the catheter from the delivery position, the handle having a second actuator for operating one or more functions of the handle, wherein the second actuator is initially hidden to prevent use by a user and then revealed as a result of the axial displacement of the primary sheath along the catheter from the delivery position so as to allow subsequent actuation of the second actuator by the user.
17. A delivery system for endoluminal delivery of an expandable device, the delivery system comprising
a catheter having a proximal end and an opposite distal end, the distal end configured to support the expandable device;
a primary sheath having a delivery position in which the primary sheath constrains the expandable device toward a collapsed configuration suitable for endoluminal delivery; and
a handle having a first actuator that is rotatable and non-translatable wherein rotation of the first actuator causes axial displacement of the primary sheath from the delivery position, the handle having a second actuator for operating one or more functions of the handle, wherein the second actuator is initially hidden to prevent use by a user and then revealed as a result of the axial displacement of the primary sheath so as to allow subsequent actuation of the second actuator by the user,
wherein the second actuator is revealed after an initial delay following displacement of the primary sheath from the delivery position.
20. A delivery system for endoluminal delivery of an expandable device, said delivery system comprising
a catheter having a proximal end and an opposite distal end, the distal end configured to support the expandable device;
a follower fixedly secured to a primary sheath for movement therewith;
the primary sheath having a delivery position in which the primary sheath constrains the expandable device toward a collapsed configuration suitable for endoluminal delivery, wherein the primary sheath is displaceable by actuation of a positioner mechanism, the positioner mechanism having a tubular wall having a longitudinal axis and an inner surface defining a lumen extending along the longitudinal axis and including a helically extending slot for engaging the follower, the lumen capable of receiving the primary sheath and the follower therethrough such that a rotation of the tubular wall about the longitudinal axis causes axial displacement of the primary sheath and follower along the lumen; and
a handle having a first actuator for axially displacing the primary sheath from the delivery position, the handle having a second actuator for operating one or more functions of the handle, the second actuator including a longitudinally extending arm for engaging the primary sheath, wherein the second actuator is displaced from initially hidden to prevent use by a user and then revealed as a result of axial displacement of the primary sheath from the delivery position so as to allow subsequent actuation of the second actuator by the user.
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The present disclosure relates to handles for medical device deployment systems and, more particularly, to handles configured for use in multi-stage deployment systems for expandable medical devices.
Handles for catheter-based deployment systems for endoluminal delivery of expandable devices are well-known in the art. It remains desirable to provide improved handles that can accommodate multi-stage endoluminal delivery and deployment of expandable medical devices, while improving or at least maintaining ease of operation to the clinician.
The accompanying drawings are included to provide a further understanding of the present disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the present disclosure and together with the description serve to explain the principles of the present disclosure.
A handle mechanism is disclosed herein for use in connection with delivery systems for endoluminal delivery and deployment of medical devices, such as vascular endoprosthetic implants. A delivery system in accordance with the present disclosure can include a first actuator for selectively actuating a first tubular member and a second actuator for selectively actuating a second tubular member, wherein the second actuator is initially hidden and subsequently presented for use in response to operation of the first actuator.
Referring to
The delivery system can include one or more tubular members for releasably constraining the medical device for endoluminal delivery and deployment. The delivery system 100 can, for example, include an elongated first tubular member 200 having a generally cylindrically shaped side wall defining a longitudinally extending lumen (not shown). The first tubular member 200 can have a delivery configuration, in which the medical device is placed within the lumen and constrained by the side wall toward a constrained state suitable for endoluminal delivery of the medical device. The delivery system 100 can also include an elongated second tubular member 300 having a generally cylindrically shaped side wall defining a longitudinally extending lumen (not shown). In the delivery configuration, the second tubular member 300 can be disposed between the first tubular member 200 and the medical device to limit expansion of medical device following removal or displacement of the first tubular member 200 from the delivery configuration. More specifically, the second tubular member 300 can limit expansion of the medical device toward an intermediate state that is larger than the constrained state and yet still smaller than a fully-deployed state, so as to allow axial and rotational positioning of the medical device at the treatment site prior to committing to a full deployment of the medical device. Examples of tubular members include catheters, sheaths, and introducers, or any elongate, tubular member used for supporting and endoluminally delivering a medical device. The tubular members can be constructed using any suitable material or combination of materials, such as polymers, polymer films, and braided wire structures, and any suitable methods known to those having ordinary skill in the art, such as injection molding, extrusion, flow-formed layered wraps, or any combination thereof.
The delivery system includes a handle having actuators and interfaces, such as knobs, operable to facilitate displacement, removal or actuation of the first and second tubular members from their respective delivery configurations. Such a handle is disclosed in
Still referring to
Optionally, a receiver 530 can be provided to support and locate the end of the arm 522 relative to the handle 400. A distal end 532 of the receiver 530 is configured to engage the follower 412 instead of the end of the arm 522, as previously discussed. The opposite proximal end 534 of the receiver 530 is defined by a pair of legs 536. The legs 536 are spaced apart to receive the end of the arm 522 therebetween.
The actuator mechanisms of the handle can include a variety of mechanisms for moving or actuating the tubular members in response to actuation of respective knobs of the handle. The first actuator mechanism 410 of the handle 400 shown in the figures, for example, includes a helically threaded positioner mechanism 600 for displacing the first tubular member 200 along an axis 610 in response to rotation of the first knob 420 about the axis 610.
The positioner mechanism 600 includes a helical slot or guide 620 formed along an inner surface 632 of a tubular wall 630 that extends from the first knob 420. The wall 630 and, therefore, the helical guide 620 rotate with the first knob 420. The follower 412 is disposed within a lumen defined by the wall 630, is engaged with the helical guide 620 and is rotatably constrained with respect to the axis 610, so that rotation of the helical guide 620 with the first knob 420 causes axial displacement of the follower 412 and the first tubular member 200 therewith, relative to the catheter and the second tubular member 300. Thus, rotation of the first knob 420 causes or allows progressive expansion of the medical device from the constrained state as the first tubular member 200 is retracted relative to the catheter from the delivery configuration of
Referring to
As earlier discussed, expansion of the medical device from the constrained state following removal of the first tubular member 200 is limited to the intermediate state by the second tubular member 300. Maintaining the medical device at the intermediate state allows axial or rotational positioning of the medical device at the treatment site prior to committing to full deployment.
The second tubular member 300 can also be axially retracted like the first tubular member. Alternatively, the second tubular member 300 can be formed from a film sleeve held together by an elongated member (not shown), such as a deployment wire or fiber. An example of the latter arrangement is disclosed in U.S. Pat. No. 6,352,561 to Leopold et al., the content of which is incorporated herein by reference in its entirety. In either case, the second actuating mechanism 500 may be provided as a coupling between the second knob 520 and the second tubular member 300 and/or the elongated member, so that removing the second knob 520 from the handle 400 causes removal and/or opening or otherwise actuation of the second tubular member 300.
In operation, the first knob 420 is rotated to actuate the threaded positioner mechanism 600 and cause displacement of the first tubular member 200 from the position in
Displacement of the first tubular member 200 relative to the medical device allows the medical device to expand from the constrained state toward the second tubular member 300, which limits expansion of the medical device to the intermediate state. In this state, the clinician may choose to make final axial and/or rotational adjustments of the position of the medical device prior to full deployment of the medical device. Once the medical device is placed at a desired position at the treatment site, the clinician can continue to operate the first knob 420.
Eventually, as shown in
The second knob 520 can include a slot 524 to accommodate use of a guidewire (not shown), which allows the second knob 520 to be substantially coaxial or otherwise near the axis 610.
After full deployment of the medical device, the handle 400 can be separated from the first tubular member 200 to allow the first tubular member 200 to be used as an introducer sheath for other medical devices or related surgical implements.
It will be apparent to those skilled in the art that various modifications and variations can be made in the present disclosure without departing from the spirit or scope of the present disclosure. Thus, it is intended that the present present disclosure cover the modifications and variations of this present disclosure provided they come within the scope of the appended claims and their equivalents.
Sokel, Justin W., Van Cleave, Jared L., Storey, Adam T.
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Aug 10 2015 | W. L. Gore & Associates, Inc. | (assignment on the face of the patent) | / | |||
Mar 07 2016 | SOKEL, JUSTIN W | W L GORE & ASSOCIATES, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038256 | /0385 | |
Apr 05 2016 | STOREY, ADAM T | W L GORE & ASSOCIATES, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038256 | /0385 | |
Apr 05 2016 | VAN CLEAVE, JARED L | W L GORE & ASSOCIATES, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038256 | /0385 |
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